Conduction Shape Factor Models for 3-D Enclosures

Analytical models are presented for conduction shape factors for three-dimensional regions formed between an isothermal, arbitrarily-shaped body and its concentric, arbitrarily-shaped surrounding enclosure. The model is based onthe exact solutionfor the concentric spheres and two methods are developed to predict the effective gap spacing. The models are validated usingexistingnumerical data from the literatureanddata from simulationsperformed using a commercial CFD software package. The models are shown to be in excellent agreement with the data for all enclosures with geometrically similar boundary shape, within 3% RMS. For enclosures formed between different boundary shapes, the models are shown tobe accurate within5% RMSwhen the minimum aspect ratio, i.e. the smallest outer boundarydimension over the largest inner dimension, is greater than 1.5.